Glassworking apparatus



10 Sheets-Sheet 1 INVENTO 77 ('1 5" I: flilliI: :Ii: :1

T. C. STEIMER GLASSWORKING APPARATUS Filed Feb. 12 1910 II mum March 9, 1937.

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March 9, 1937. T. c. STEIMER 2,073,571

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GLASSWORKING APPARATUS I Filed Feb. 12, 1910 10 Sheets-Sheet 7 March 9, 1937. T, STEMER 2,073,571

GLASSWORKING APPARATUS Filed Feb. 12, 1910 1o Sheets-Sheet a FIG.I6.

March 9, 1937. T. c. STEIMER GLASSWORKING APPARATUS INVENTOR,

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WI'TNES T. c. STEIMER GLASSWORKING APPARATUS Filed Feb. 12, 1 910 1o Sheefa-Sheet 10 INVENTOR,

March 9, 1937.

Patented Mar. 9, 1937 UNITED STATES PATENT OFFICE.

GLASSWORKING APPARATUS ware Application February 12, 1910, Serial No. 543,582

7 Claims.

My invention relates to the art of making pressed or blown glass articles such as tableware and the like, and more particularly to means for continuously and automatically making glass articles in one continuous series of machines. The primary objects are to provide a set of cooperating machines to carry out the complete process, from the melting of the metal to the point of packing of the articles; to provide efficient means for regulating the size and weight of the articles, and generally to properly co-ordinate a set of machines performing the different necessary operations. More specific objects are to improve the construction and operation of melting furnaces, and to provide for continuously feeding charges for pressing or blowing machine molds or blanks; to improve the operation of pressing machines; to provide an automatic glazing or fire-polishing machine; to provide an automatic collecting machine for placing the finished articles in the lehr for annealing; and other'specific improvements which will hereinafter appear. I have illustrated the apparatus in its collected form and also the individual machines, in the accompanying drawings, in which- Fig. 1 is a diagram showing in side elevation and partial section a complete assembled apparatus for making tumblers, for example; and Fig. 2 is a continuation in plan diagram, showing the method of operating the collecting and delivering machine for the lehr.

Fig. 3 is a side elevation of the melting and pouring furnace tilted in position to entirely empty its charge, showing also parts of the pressing machine; Fig. 3a is a detail of mechanism for operating the tilting of the furnace, as will be hereafter described. Fig. 4 shows another elevation of the pressing machine and a front elevation of the melting and pouring furnace. Fig. 5 is a rear elevation and partial section of the furnace and Fig. 6 is a central vertical section of the furnace, showing a full charge of molten glass therein; also the delivery pot, and a side elevation of the pressing machine. Fig. 7 is a vertical section taken through the center of the pressing machine, also showing some of the molds in elevation, the section being on the line (1) in Fig. 8. Fig. 8 is a section taken on the line (8) of Fig. '7, showing especially the operation of the press plunger. Fig. 9 is a horizontal section on the line (9) in Fig. 7. Fig. 10 is a detail showing in side elevation the shifting complementary plungers in another position. Figs. 11 and 12 are details, respectively in vertical section and side elevation,

, of certain parts of the driving mechanism for the table of the press. Fig. 13 is a partial side elevation and partial section showing the mechanism for measuring the glass and feeding the molds, the section being taken partly on the line (I3) in Fig. 14. Fig. 14 is a section on the line (H) in Fig. 13, and elevation of a different view of the same mechanism; and Fig. 15 is a plan view of the glass measuring and feeding pot. Fig. 16 is a vertical central section of a machine for firepolishing the articles. Fig. 1'7 is a partial section and plan on the line (H) in Fig. 16, showing the means for operation of the carrier for the firepolishing machine; and Fig. 18 is a partial front elevation of the lifting device and shaper for the glass articles seen at the right of Fig. 16. Fig. 19, is aplan view of the table in Fig. 16, and a section on the line (I9) therein. Fig. 20 is a side elevation showing in detail the transporting devices appearing in plan at the left of Fig. 19. Fig. 21 is a vertical'central section through the annealing lehr and the collecting and delivering machine therefor, and Fig. 22 is a plan view showing this latter more particularly.

The problem of manufacturing such articles as tumblers for example, entirely automatically, has

not to my knowledge been heretofore attacked;

and it will be understood that one of the difliculties to be met is to properly co-ordinate the different machines necessary to be used. Heretofore the glass has been melted in a pot or a large fixed melting tank, which is stationary, and the glass as used has been taken out by various handling machines such as dippers, or suckers or by hand blow-pipes or hand punty rods when the articles are to be either blown or pressed. In the making of pressed tumblers it has been customary to simply gather out the glass on hand punties and feed the proper quantity to a mold by dropping the glass from the punties into the molds and cutting off the required amount manually, the skill of the operator being depended on to get the right amount for making the article. Where it has been proposed to use machines for feeding glass, the feeding device has been attached to the melting furnace and it was proposed to get the right amount of glass by some form of shearing machine to cut off a flowing stream, but this has been a failure on account of the impossibility to cut off cleanly, and for other reasons.

The press has been fairly well developed, as illustrated in my prior Patent No. 870,649, of 1907. It has been customary where fire-polishing was necessary to manipulate the article largely by hand, the article being invariably carried to and taken from the finishing machine, even where it was attempted to automatically rotate the article in the heating flame. It has also been customary to place the articles in a. lehr by hand. And in short, so far as I am aware there has been no attempt to entirely eliminate hand operations in the manufacture of such articles. The herein set forth apparatus is to accomplish this object and incidentally I present separate and distinct improvements in each one of the various cooperating machines.

First, to briefly explain the general nature of the invention, I refer to Figs. 1 and 2, wherein I present in diagram the whole apparatus. Mounted on a truck, I show a frame 25 carrying a melting and delivering furnace 30 which is pivoted at 3| and pours out the glass constantly at a fixed head by reason of its construction and through the agency of the screw 34. The glass flows in an unbroken stream into the interrupter chamber 45, where, by means of a reciprocating interrupter 58, it is divided up into charges which drop through the funnel 63 into a series of molds M on the table 9| of a pressing machine, where the, charge of glass is automatically pressed and delivered as shown at T in completed form. In the case of rough ware like jelly glasses, of course the step of fire-polishing is omitted and the tumblers are here taken up by the collector. But in the full apparatus here illustrated, the tumbler T is next placed upon a rest ill on the table N5 of the fire-polishing machine, where it is taken up automatically by lifting devices |3I and I42, inserted into the glory hole H3, and afterwards delivered by the transporting devices to a rest I60 and by a carrier arm H0 delivered to the collector I80. This machine is shown more clearly in Fig. 2, and is designed to take up the tumblers one at a time, as the collector table rotates past the delivery point of the carrier H0, and afterwards, by an outward motion of the movable section of the collector table, a whole row of the articles is shoved onto a moving carrier I91, which passes slowly through an annealing lehr I98 and eventually brings the tumblers out completed and on a. packing table which is a continuation of the traveling table in the lehr. All the operations just described are performed without any manipulation of the article by hand, and the apparatus is provided with means for making the articles of uniform weight and size and treating them uniformly in the fire-polishing process, where they are automatically prevented from becoming misshapen.

Having thus given a general idea of the functions of the combination of machines, I will now describe in particular the several distinct elements of the combination.

First, the furnace, which is shown in Figs. 3, 4, 5 and 6. In order that the manufacturing process may be continuous, day and night, I contemplate using several of the furnaces, and if necessary additional presses may be provided to take the place of one needing repair. The entire apparatus is designed to be operated from a single power shaft P, but nevertheless the furnace is portably mounted and may be removed and replaced by another.

On a frame 25 of any suitable construction, I provide a stationary bearing 26 and a movable bearing 32 to carry the furnace. All the operations necessary to move the furnace are provided for by a shaft 21 driven by a gear 28 and ratchet arm-29 shown in detail in Fig. 3a. and hereafter described. It is sufiicient at this point to say, that the furnace may be entirely removed by merely disconnecting the air and gas pipes in the usual way, and lifting the driving link 29a off of its connecting pin on the arm 29. The furnace 30 may be built in any usual construction of iron framing and the outside casing is as customary; but the entire frame and easing are supported on the fixed trunnions 3| at the front of the furnace, and bearing 32 at the rear of the furnace engaging a'movable trunnioned nut 33 riding on a pivoted screw 34 which has a bearing in the frame 25 and is rotated slowly and intermittently by gearing 35 and 36 from the shaft 21.

The interior construction of the furnace is peculiar; the melting pct 31 as seen in Fig. 6 is of wedge shape, with vertical sides, so that as the furnace is tipped about its pivoting point which corresponds with the line of the pouring mouth 38, the glass is always poured from the same level and from exactly the same position in the furnace. That is, the pouring point is immovable and the whole body of the glass moves around it as a center. By this means I am enabled to drain off the entire charge of glass, leaving no residue to mix with a new charge, which would be very detrimental. The raw material for the glass may be introduced by lifting off the top 39. It will be observed that the pot 31 is in a reverberatory chamber formed by the passages 40 and 4|, being heated in any convenient way, as by the air and gas burner 42 fed by any convenient form of piping 42a.

The pouring of the glass from the furnace 30, accomplished by the slow revolution of shaft 21 and screw 34, is brought about by the reciproeating movement of arm 29, which as will be seen in Figs. 3 and 3a is provided with a dog or ratchet He, moved intermittently and moved any desired distance to regulate the flow of glass, by means of link 29a engaging an adjustable wrist-pin 420' set in a revolving wheel 43, geared up, as will be obvious from Fig. 3, with the main power shaft P. That is, by attachment to a continually rotating element, the dog and circular rack just described will slowly and continuously tip the furnace about its pouring spout as an axis, so as to deliver a continuous stream of glass at the exact rate required. The adjustment is made without stopping the machine. The glass is always under the same conditions of temperature, pressure head, movement, etc., and the entire chargev of the furnace is used up.

The stream of glass, protected by the hood 44 flows into the interrupter chamber 45 shown more in detail in Figs. 6, l3, l4 and 15. This chamber 45 has the double purpose of housing the regulating pot and interrupter, and of keeping the glass uniformly at the correct temperature. Inside the chamber 45, I provide a pot 46 having the peculiar form shown in Figs. 13 and 14, so that a gas flame introduced thereunder by a burner 41 supplied through pipes 41a provided with regulating valves 41b reverberates around the pot 46 and at the same time assists the interrupter in its functions as hereafter described. Referring to Figs. 13 and 14 especially, it will be understood that the shaft 48 may be connected up as by a gear 49 at the right of Fig. 3, with the main power shaft P therein; and on the shaft 48 is a cam 50 which reciprocates an arm 5| pivoted at 52 to any convenient part of the frame of the machine. This arm 5| has a bearing portion 51a which is adjustable in position by screw 5!?) so as to regulate the throw of the connected vertical reciprocating link 53, imparting motion to a frame 54 which slides in a vertical guide 55.

On this frame the interrupter stopper is mounted, with various adjustments as shown, in aring 51 on the end of the supporting arm 56. This stopper has a conical end which just fits a conical outlet 58 in the pot 46, so that when the stopper is down it approaches closer to the surface of the opening 58 and stops the fiow of glass through the same. It will be understood that the downward motion of this stopper 58 ends at a fixed position which may be regulated by screw 58a on the link 53 striking a projection 58b on the frame of the machine. And it will be noted that though positively raised by arm 56, the stopper may fall immediately by gravity when the cam 58 escapes, so that it is governed by the conditions of the glass.

The pot 46 is seated on an upwardly projecting boss 68 in the interrupter chamber 45, and this boss is provided with several radial slots 6| through which a fine flame constantly plays immediately under the outlet of the opening 58. The several jets of fiame are projected toward a common center and have the effect of completely melting and cutting off the charge of glass delivered by the rising and falling of the stopper 58. It will be understood that the volume of this flame is sufllciently large to give a strong blast for this purpose as well as to reverberate on top of the pct 46, through the opening 45a shown in dotted lines in Fig. 13. The stopper 58 is held in the head 51 by a leaf spring 62. The amount of glass flowing into the pot 46 being carefully regulated and entering in regular pulsations, the

motions of the stopper 58 are timed correspond- 7 ingly and carefully adjusted in extent so that the same amount of glass which flows into the pot 46, also flows out each time the interrupter is lifted to supply the molds. Thus the level of glass in the pot remains constant, which means that the head or pressure at the outlet is always the same, and the temperature conditions being also constant, the same charge of glass at the same consistency is invariably fed to the molds. According to the size of the article being made, the rate of flow of glass is easily regulated by adjusting the position of the wrist pin 420 (Fig. 3a), and the position of the bearing arm 5|a in Fig. 13. The action of this glass feeding device is peculiar in that instead of attempting to cut off a string of glass as heretofore, I merely interrupt the stream of glass by partially obstructing the outlet, and meantime heat the glass to a high temperature at the point 6| so as to separate the mass in the pot 46 from the falling charge of glass in liquid form very much as a drop of water is separated from the main body by surface tension. That is, the charge carries with it in a spherical form all of the glass separated off from the main body by the thin sheet of gas flame. The effect of this intense local heat is that the highly heated liquid glass will be forced by the flame either to follow the charge or to. travel back into the opening 58, so that there is no possibility of a tail or string of glass either hanging to the outlet or following the charge.

Of course, the charge of glass from the interrupter may be allowed to drop directly into the mold when desired, but I have illustrated in Figs. 13 and 14 an improvement which consists in a conical chute 63 mounted in the frame 64 so as to revolve freely and carrying a gear 65 which is driven through shaft 66'by gear 61 on the shaft 48. This cone stands over the momentary position of the mold M in its place on the press. It

will be noted that the spherical charge of glass dropping into the cone will be kept in spherical form and at the same time prevented from sticking by reason of the rapid motion, and furthermore chances of irregular cooling will thus be reduced to a minimum. The success of a press mold depends very largely upon introducing the glass in proper condition, and it will be noted that I thus avoid the common defect of intro ducing a charge of glass which has been made cold in one spot by contact with the shears.

The pressing machine is illustrated in detail in Figs. 7 to 12, but it will be best seen from Figs. 4 and 6 that the interrupter and press are both mounted upon the same portable frame and the main power shaft P is provided with a clutch PC (Fig. 6), so that it is separable. The continuation of this shaft is shown at 68 in Figs. 4, '1 and 8, where it is mounted in bearings 68 of the press frame 18 and carries a gear 1| meshing with another gear 12 on a shaft 13 mounted in bearings 18a on the pivoted frame 14. This shaft 18 carries a cam 15 for engaging the cross-head 16 of the main press plunger 11, and the cross-head 16 is connected to or made integral with another cross-head 18 which is engaged by two cams 18 also keyed on shaft 13' and arranged to lift the plunger 11. The plunger and cross-heads are preferably counter-weighted by weights W mounted on the frame 88 which rests upon the same base 18a as the press frame 18 carrying the shaft 68. This frame 88 stands between the two side wings of the pivoted frame 14, as will appear from Fig. 8 and while the frame 88 is stationary, just like the standard 18, the frame 14 is pivoted at 68 and its lower or tail portion 14a rests against the stationary standard 18. If there is induced any excess pressure on the plunger 11, it will be seen that the plunger and its operating cams and shaft can all rise by lifting the frame 14 and rotating it around 68 as a center. It is held down, however, by its own weight there should be too much glass in the mold, in-

stead of crushing or crizzling the glass.

The main plunger 11 carries integral with it a frame which reciprocates in guides 86 and has pivoted to its bottom (as shown more clearly in Fig. 10), a complementary oscillating frame 81 which carries two complementary plungers 88 fixed on the rim 8.1a. These complementary plungers are alternately brought in position over the molds M by the engagement of a pair of integral arms 88 on frame 81, with cams 88 fixed on the bottom of the revolving table 8| of the press.

This table 8| carries any convenient number of molds M, and it is moved in a step by step motion, on the bearing plate 82 by means of a conical gear 88 fixed inside it and engaging a bevel gear 84 on the shaft 85. This shaft 85 is operated intermittently by a pinion 86 engaging a vertically reciprocating rack 81 operated by a link 88 attached to a wrist pin 88 on two discs I88 fixed on the interrupted shaft 68. It will be understood that by the constant rotation of these discs on shaft 68 the rack 81 is continuously reciprocated,

and in order that the press table may be driven by shaft 95 always in the same direction, I provide on the shaft 95 a keyed disc ml which carries a spring-pressed retreating bolt I02 engaging an inclined slot I03 in the side of the pinion 96; this pinion 96 riding freely on shaft 95 in one d rection, but being engaged by bolt I02 in the opposite direction and thereby intermittently revolving the shaft 95.

It will be understood that the mold table brings the molds M successively under the position of the main plunger 11, and by this revolving motion alternately shifts into alignment the two complementary plungers 88, which are thus driven into the mold in the usual way; but it is to be noted that by this means I have always a cold plunger to press the glass and this very much increases the speed of the machine without danger of sticking or overheating. From the position under the plunger, the glass in the molds is cooling until it reaches the position OX as shown in Figs. 7 and 9, when the tumbler T is ejected by the rising of a valve I04 whose stem has a roller "I05 at this time engaged with a cam track I06, fixed to the bed-plate 92 of the machine. This is shownmore plainly in Fig. 4.)

Referring to Fig. 1 again, it will be understood that the tumbler T is now in position to be pushed over on to the rest III of the fire-polish- 0 ing machine. This is accomplished by a transfer device on the press base and consisting of a slotted lever arm I01 (Fig. 6) reciprocated by a wrist pin on a rotating disc I08 attached to the shaft 48 of Fig. 14, and pivoted to a longitudinally reciprocating bar I09 as shown in Fig. 6. This bar I09 pushes the tumbler T across the table H0 and onto a rest III of the fire-polishing machine shown in Fig. 16.

The usual construction of a fire-polishing furnace, or so called glory hole will be understood without description. In the machine shown in Figs. 16 to 20. the furnace proper II2 revolves, and the mechanism for placing the articles in the openings I I3 therein moves in a plane fixed 4 relative thereto, while the supports for the rests I I I, travel intermittently-with the mechanism for lifting the article therefrom. It will be best first to describe the transporting devices.

On a frame or standard II 4, I mount a table I I5 which is continuously rotated by a bevel gear H6 and a pinion II1 on shaft II 8 which by gears H9 and shaft I20 is connected in any convenient way with the main power shaft P, before described. The fire is furnished by a burner I2I in the center of the frame II4 entering the throat I22 of the furnace H2, and this latter is supported indirectly on the rotating table II5 as hereafter described. An extension I23 of the frame II4, carrying a fixed cylinder .I24 supports fixed cam plates I25, I26, and I21. All the other parts of the machine revolve. The revolving table H5 is provided around its outer edges with studs I28 supporting a plate I29 which in turn carries a series of stationary blocks I43 and stanchions I supporting plate I5I, and these in turn by supports I52 carry the furnace II2. Between two depending lugs I53 fixed on the plate I5I, I provide a series of lifters shown in front elevation 70 in Fig. 18. They consist of a lifting device or box I3I pivoted on pins I32 and containing a series of rollers I33 mounted therein in inclined semi-circular arrangement and driven by intermeshed gears I34 by a system of gearing I35 75 driven from shaft I36 which in turn is rotated by the. rack I81 fixed on an extension I88 of the fixed frame II4.

It will be seen from Fig. 16 that when the box I3I hangs vertically down from its pivots I32, it stands behind the tumbler T on the rest I I I. By means of a rack I40 in the plate I29, engaging a gear I on the pivots I32, the box is swung up to the horizontal position shown in dotted lines in Fig. 16, in which motion it passes over the rest III and receives the tumbler T, (as will be plain from Fig. 18) and carries it up in line with a lifting device I42. This motion of the rack I40 is imparted by the engagement of a downward depending stud roller I40a engaging the cam slot I21a in the fixed plate I21. A plan view of this rack I40 in the plate I29 is shown in Fig. 17.

Placed parallel with each rack I40 and to the plane of movement of its lifting box I3I, there are fixed blocks I 43 in which is guided an oscillating block I44 pivoted on a trunnion. I44a in a pair of the stanchions I50. This block I44 has a forwardly extending tubular arm I46 in which is mounted the stem of the holder plug I42, and the back end of this stem I46a engages a sliding block I41 movable in ways in block I43 and reciprocated by the engagement of the pin exten-- sion I48a on arm I48. The arm I48 is pivoted on the next block I41 and it has a roller stud I49 which engages a cam slot in the fixed plate I26, above, as will be evident from Fig. 16. This shoves the stem Ga and its holder plug into the tumbler when it is in horizontal position, and then, by the engagement of a gear I54 on the trunnion I44a with a reciprocating rack I55 set in the plate I5I, the tumbler is swung up into vertical position within the glory hole H3, as indicated in dotted lines at the left of Fig. 16. The rack I55 is moved by the engagement of roller stud I56 with a cam slot in the fixed plate I25. Meantime, the arm I 46 of the holder plug is rotated in position by a pinion I45 engaging an idler I45a surrounding the trunnion I (1 and driven by a pinion I51 on shaft I58 which in turn is driven by means of rack I 59 also fixedly mounted on the base extension I38 which carries the rack I31.

While the tumbler is in the fire of the glory hole, it will be observed that the edge of the tumbler next the fire is in a vertical position to avoid any distortion, and meanwhile it is rotated so that it is heated evenly all over. By the time the machine is rotated through 120 degrees or any other desired distance, the'cam slots reverse all the motions just described; the supporting arm I46 lowers to a horizontal position and deposits the tumbler again in the revolving rollers I33 of the lifting box I3I, and eventually this returns to vertical position leaving the tumbler on the rest III as shown at the left of Fig. 16. The tumbler in handling has been constantly operated on to keep it moving and maintain its shape, it being understood that the rollers I33 will in each case be made to exactly fit the sides of the article being made. The tun'ibler is now finished and is carried into the lehr as hereafter explained.

Coming now to the horizontal movements of the supports for the tumbler; it will be seen from Figs. 16 and 19 that these supports I I I and I60 are carried on sliding blocks I6 I which are set in the revolving table I I5 and are free to move. Referring to Fig. 19, especially, these tumbler supports are arranged in pairs, there being one of each kind on each of the sliding blocks I6I. It is necessary not only to bring them into register with the table IIO intermittently, and leave them sta- 10 the position of table IIO so that the support III is in position to receive the tumbler, it strikes a stationary ug I66 which prevents its further motion until the tumbler has been put in place and I the end I85 slides past the fixed lug I66. When this escapement happens, of course the block I6I is again carried along with the table II5 so that the tumbler support III is in register with the lifting devices as before described. While the tumbler is being transported and treated in the 20 glory hole, the receiving holder I60 is brought into register with the lifting devices, by the striking of the arm I82 on one of the fixed lugs I61 seen in Fig. 19, so as to cause the receiving holder I60 to take the relative position formerly occupied by the holder II I.

The operation of fire polishing having been completed, the tumbler is returned to original position and at such time it is placed upon the holder I60. This does not occur until the table 5 has made five-sixths of a revolution; that is, after the arm I62 has struck the second lug I61 shown at the bottom of Fig. 19, so that the tumbler after being finished has been carried from about the position marked X in Fig. 19 to the delivery point at the left of the figure. But whenever the support III passes the table it is stopped in register therewith, and when the receiving support I60 arrives at the position opposite the receiving table I68 at the left of Fig. 19, it is stopped in register therewith. But immediately thereafter, the arm I62 strikes another fixed lug I69 and shifts the other holder III into line with the lifting devices. Meanwhile the carrier arm I10 takes the tumbler off support I60 and shoves it across the table I68 into the collector by means of the reciprocating motion of a lever arm I1I engaging the sliding block I12 in the slotted table I13. The arm I1I is moved by a pin-and-slot engagement with a disc I14 operated by gearing I15 from the power shaft H8. The lateral motion of the carrier arm I10, necessary to enable it to go behind the tumbler on the rest I60, is attained by pivoting on the block I12 a frame I16 immediately supporting the carrier arm I10, and this frame is swung on its pivot by engagement of roller stud I11 with a cam switch I18 on the table I13. The frame I16 is returned to normal position by spring I19.

In Figs. 21 and 22, I have shown the annealing lehr and the traveling table and the collecting and delivering machine with a general view of the arrangement of the power shaft. It will be understood that the carrier arm I10 has brought the article into position across the table I68 and these articles are to be taken up one by one. For this purpose the collector consists of an intermittently revolving table I92 mounted on a shaft I8I driven from any convenient gearing I82 from the power shaft P. The only peculiar thing about the gearing is the immediate engagement of the table with the driving gear. This table I92 is provided on its upper flange with a continuous series of studs I83, (preferably provided with rollers) acting as gear teeth, and

engaging interrupted worm cam I84. having its cam slot arranged so as to move the table a definite distance intermittently, while its shaft continuously rotates. The rotating frame-work supporting the table I92, has as a part of it, a series of guides I86 in which radially slide frames I 81, movable by links and bell crank levers I88 as hereafter described, the side arms I89 of the frames I81 passing through the rim of the table, and supporting on the outside of the rim 8. series of separate ring sections I90 on which are fixed. a series of forks I9I. The supporting table I92, serves to .maintain the tumblers in position within the forks I9I after they are placed there by the carrier arm I sliding them over table I68. It will be understood that one of these forks I9I momentarily stops at the table I68 with each revolution of the driving cam I84. Thus the articles are collected one by one and carried around to the position shown within the lehr I98 and 'over the traveling table I91 therein. The ring sections I90 are adapted to the size of the lehr table and when one of them arrives at the delivery position as shown in Fig. 22, an upturned stud I88a on the tail end of the bell-crank lever I88, arrives within a notch in the reciproeating bar I92a. This is moved by a link I93 7 engaging a wrist pin on crank arm I94 on shaft I95 driven from shaft I85 by gear I96. The inward movement of the bar I92a thus causes a. radial outward movement of the frame I81 which happens to be at this point at this time, and by this outward movement of the carrier ring section I90 thereon, the whole row of tumblers supported by it is shoved oil of the table I92 on to the traveling table I91 of the lehr I98.

This motion being quickly performed does not' interfere with the continuous motion of the lehr table and it will be of course understood that the articles are carried slowly through the lehr in the usual way. Of course, the movements of the collector machine and the lehr table are so timed that the sets of articles are placed in proper order as shown in Fig. 2.

Briefly the operation of the apparatus is as follows:

The glass having been properly mixed and melted in the combined melting and pouring furnace pot 31, it will be understood that the glass flows in a continuous or unbroken stream through the spout 38 into the interrupter chamber. Although the screw 34 tilting the furnace has an intermittent step-by-step movement, this is a very slow movement and the changes of position are so small that they do not interrupt the continuity of the out-pouring stream. The machines are so timed that the lifting of the interrupter stopper 58 practically corresponds with the pulsation of the flowing stream maintaining the constant glass level in the pot 46. This interrupter stopper 58- rising at the proper time allows a flow through the outlet 59 and then stops the fiow by constricting the passage and meanwhile the constantly playing flame in the slot 6i sepacomplementary plungers 88. The plunger is then depressed by cam I5, the pivoted frame 14 relieving the pressure at the proper point, and then the plunger being raised by cams I9. The complementary plungers 88 are alternated in successive molds. The stopping of the mold under the plunger is accomplished bythe interruption of the travel by return of pinion 96 in its idle position as it is driven by rack 91. As the tumbler comes to the position indicated in Fig. 6, it is ejected from the mold M by the stem of the valve traveling up the track I06 and immediately the tumbler is transported across the table IIO by the carrier I09, arriving at the position shown at the right'of Fig. 16, on the support III. Standing now in front of a lifting box I 3|, this latter springs outward and upward by movement of rack I and it straddles over support III, picks up the tumbler in the nest of revolving rollers I33, lifting it to a horizontal position, while the lifting device I42 is projected outward into the tumbler and immediately lifted by operation of rack I55 and places the tumbler in the glory hole H3. As it travels around with the furnace H2, it is constantly rotated by the pinion I51 and its driving shaft I58 engaging the fixed rack and exposed on all sides to the flame. At the proper time the tumbler is again lowered by the same agencies and deposited on the rest I50 which has meantime been shifted into the relative position formerly occupied by the rest III, through the agency of the shifting arms I52 moving sliding blocks I6I when struck by'the fixed lugs I61. As the rest I60 with the tumbler comes opposite table I68, the rest and tumbler are stopped by the striking of arm I62 against lug I69 and thereupon the carrier arm I70 shoves the tumbler across the table I68 into one of the forks I9I which has temporarily been stopped in front of table I68 by the interruption of the worm cam I84 driving the table I92 by the teeth I83. When a whole section of the tumblers have arrived over the lehr table, the movable section I90 of the carrier frame, is shoved outward by the bellcrank lever I88 whose tail at this time engages reciprocating bar IBM, and thus the row of tumblers is left in the lehr as shown in Fig. 2. The tumblers are now carried through the lehr by the slow and continuous motion of table I91, and by the time they have arrived at the exposed position of the table, they are cooled sufiiciently to be immediately packed.

All of these motions are accomplished from the single shaft P, and without any hand manipulation. The process may thus continue without cessation since the furnace 30 may be removed and replaced without stopping the other machinery, and similarly the press can be removed and replaced without interrupting the finishing machine and the collector and lehr. Among other advantages my invention accomplishes the complete emptying of the melting tank, the uni form pouring of the glass under absolutely constant conditions, the exact and easily regulable feeding of charges to the mold from a receptacle always at the same head of liquid glass and always of the same temperature, the delivering of the glass to the mold in a mass which is uncooled at any particular spot and of spherical form, the avoidance of any strings of glass in separating the stream into charges and without blisters or mars. Also the pressing of the articles without any variation in the amount of pressure, notwithstanding possible variation in the volume of glass in the mold, the use of a cooled plunger in each mold, the automatic transporting to the finishing machine, and the automatic manipulation therein. Also the handling of the glass article in a nest of moving rollers whereby it is not necessary to wait until they are cold and they are maintained in proper form, preventing distortion in the glory hole or in the handling of them as they are removed from the glory hole, being again subjected to the action of rollers to correct and maintain their shape; the continuous collecting of the articles one by one and delivering them to the lehr automatically in bunches properly aligned and spaced, under the continuous movement. Other advantages will readily occur to those familiar with the art, but it may be said in addition that it is a great advantage in this art to thus treat each one of a great number of articles exactly alike and to do away with expensive hand operations. The entire apparatus could be attended by one man, and after being properly adjusted it requires no attention whatever as long as the supply of glass holds out. I believe I am the first to provide a co-ordinate set of machines to automatically manufacture glass articles, in addition to which there are various points of novelty in the machines themselves as hereinafter pointed out.

I do not here claim any invention shown in, or described in connection with Figures 16 to 20, both inclusive, or in Figures 21 and 22, as the same form the subject matter of my applications Sr. No. 369,078 filed March 26, 1920, and Sr. No. 382,354 filed May 18, 1920, respectively, filed as divisions hereof.

Having thus described my invention and illustrated its use, I claim the following:

1. The process of separating molten glass into mold charges which consists in intermittently flowing the glass in an annularly converging flow to the outlet, discharging the glass periodically through the outlet, temporarily suspending the discharged glass in successive masses beneath the outlet and separating each mass from the outlet while so suspended.

2. The method of feeding molten glass from a container in mold charges which consists in controlling the discharge through an outlet below the surface of the glass while maintaining constant pressure on the surface of the glass in the container to form a succession of compact masses of the glass each temporarily suspended beneath the outlet by periodically varying the conditions at the outlet to cause a pulsatory discharge through said outlet.

3. Apparatus for separating molten glass into mold charges, including a container for the glass having an outlet, an implement projecting into the glass towards the outlet and mounted for movement towards and from the outlet, means said orifice partially open, and adjustable means for actuating said auxiliary member, the said adjustable means being so constructed as to vary the lift of said auxiliary member without materially changing the lowest position of said auxiliary member.

5. The method 0! forming masses oi molten glass that comprises causing glass to flow from a parent body through an opening, causing successive portions of the glass, as they emerge from said opening, to hang freely below the opening, and then detaching the said successive portions of glass before they are received in any receptacle.

6. The method of feeding molten glass from a parent body in a succession 01 similar mold charges, that comprises flowing glass from the parent body through a discharge outlet so that a compact mass of glass at least as great as a mold charge is accumulated by suspension of the issuing glass beyond the outlet, the suspended charge being connected with the parent body through the'issuins glass, separating a charge from the mass while it is still suspended and prior to its reception in any receptacle, and repeating the several operations.

7. The method of varying the weight of mold charges of glass, each formed by flowing glass through a submerged outlet and suspending the issuing glass beneath the outlet until a mold charge is formed in suspension, and then intermitting the issue of the glass by an implement reciprocating vertically in alignment with but not contacting with a wall of the outlet, which comprises varying the limit of upward movement of the implement without changing the limit of lower position and without changing the periodicity of its reciprocation.

THEODORE C. STEIMER.

cmmwzcxm 0F commc'non.

Patent No, 2,073,571. March 9, 1937.

Theodore C. Steiner.

It is hereby Certified that error appears in the above numbered pate nt requiring correction as fol lows: In the drawings, Sheet 1,

Figure 1 should appear as shown below instead of as in the present drawings of the patent:

rim.

and thatthe said Letters Patent should be read with this correction therein that the same may conform to the record of the case in the Patent Office.

Signed and sealed this 30th day of March, A. D. 1937.

Henry Van Arsdale (Seal) Acting Commissioner of Patents. 

